Automatic collection device for aluminum ceiling

CN224394038UActive Publication Date: 2026-06-23SHENYANG HONGWEI IND CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENYANG HONGWEI IND CO LTD
Filing Date
2025-07-25
Publication Date
2026-06-23

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  • Figure CN224394038U_ABST
    Figure CN224394038U_ABST
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Abstract

The utility model discloses an automatic collecting device of aluminum ceiling, including fixed plate, still including the placement block and extension rod, fixed plate is provided with two, and one end of two fixed plates is provided with the discharging plate, and a plurality of ceiling single pieces are placed on the discharging plate, and two first slot bodies are provided with on the fixed plate two ends, and a plurality of reset shafts are rotatably arranged on the first slot body, and the reset shaft and fixed plate junction is provided with torsional spring, and the reset shaft is rotatably provided with the rotating plate. The utility model discloses when the extension rod moves upward, the extension baffle is pushed, thereby the rotation direction of rotating plate is changed, then the placement block makes the spring of its rear end be limited by the limiting inclined block through the rotation of rotating plate itself and thereby protrudes outward, receives the falling ceiling single piece, and the extension rod continuously moves upward and falls back to work, realizes the work of whole stack protection to the ceiling single piece, thereby improves the whole blanking efficiency and article protection ability.
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Description

Technical Field

[0001] This utility model belongs to the field of automation, and specifically relates to an automatic collection device for aluminum ceiling panels. Background Technology

[0002] Aluminum ceilings are ceiling decoration materials made primarily of aluminum alloy. They are lightweight, durable, fireproof, waterproof, corrosion-resistant, easy to install, and easy to maintain, and are widely used in interior decoration of commercial buildings, office buildings, public places, and residential spaces.

[0003] In existing technologies, when cutting individual ceiling pieces, manual handling and neat placement of each piece are required. Sometimes, excessively fast cutting speed can easily lead to the accumulation of ceiling pieces. Furthermore, the lack of protection during the cutting process increases the risk of collisions and scratches between ceiling pieces, resulting in problems with overall cutting efficiency and product quality.

[0004] Therefore, the existing ceiling materials collection process suffers from low efficiency due to manual material placement and the risk of collisions and scratches during material placement. Utility Model Content

[0005] In order to overcome the problems of low efficiency and easy collision and scratch during the manual unloading and collection of existing ceiling materials, an automatic collection device for aluminum ceiling materials is proposed.

[0006] The technical solution of this utility model is as follows: an automatic collection device for aluminum ceiling panels, including a fixed plate; it also includes a placement block and an extension rod. Two fixed plates are provided, and a material feeding plate is provided at one end of the two fixed plates that are close to each other. Multiple ceiling panel pieces are placed on the material feeding plate. Two first grooves are provided at the front and rear ends of the fixed plates. Multiple reset shafts are rotatably provided on the first grooves. A torsion spring is provided at the connection between the reset shaft and the fixed plate. A rotating plate is rotatably provided on the reset shaft. Multiple sets of limiting inclined blocks are fixed to the left and right ends of the inner wall of the first groove. A limiting slider is elastically slidably provided on the rotating plate. The other end of the limiting slider is fixedly connected to the placement block. A second groove is provided at one end of the two fixed plates that are far apart from each other. A slide rail that can move back and forth is provided on the second groove. An extension rod is slidably provided on the slide rail. An extension baffle is provided at one end of the rotating plate that is far away from the placement block.

[0007] Preferably, the rotating plate has a third groove at both ends, the limiting inclined block is located at the third groove on the rotating plate, and a fixing block is fixedly connected to the lower end of the rotating plate.

[0008] Preferably, two sliding rods are slidably provided on the fixed block, and the placement block and the limiting slider are connected to each other through the sliding rods. A spring is provided at the end of the limiting slider and the fixed block that is close to each other and located on the outer wall of the sliding rod.

[0009] Preferably, the limiting inclined block is provided with an arc-shaped groove, which has an arc-shaped structure.

[0010] Preferably, the left and right ends of the first groove are provided with the same number of first baffles as the rotating plates.

[0011] Preferably, two electric cylinders are provided on the second tank, the telescopic rods of the electric cylinders are fixedly connected to the inner groove surface of the second tank, and a connecting frame is fixedly connected to the outer wall of the electric cylinder.

[0012] Preferably, the slide rail and two connecting frames located on the second groove are fixedly connected to each other, and a first slider is slidably arranged on the slide rail, with extension rods fixedly connected to the left and right ends of the first slider.

[0013] The beneficial effects of this utility model are as follows: When the extension rod moves upward, it pushes the extension baffle, thereby changing the rotation direction of the rotating plate. Then, the placement block rotates through the rotating plate itself, causing the spring at its rear end to be limited by the limiting inclined block, thus protruding outward to receive the falling ceiling piece. The extension rod moves upward and falls back continuously, realizing the overall stacking protection of the ceiling piece, thereby improving the overall material unloading efficiency and the ability to protect the items. Attached Figure Description

[0014] Figure 1 The diagram shown is a three-dimensional structural schematic of this utility model;

[0015] Figure 2 The diagram shown is a three-dimensional structural schematic of the rotating plate of this utility model.

[0016] Figure 3 The diagram shown is a three-dimensional structural schematic of the cross-section of the rotating plate of this utility model.

[0017] Figure 4 The diagram shown is a three-dimensional structural schematic of the cross-section of the rotating plate of this utility model.

[0018] Figure 5 The diagram shown is a three-dimensional structural schematic of the sliding component of this utility model.

[0019] The markings in the attached diagram are as follows: 1. Fixing plate; 101. First groove; 102. Second groove; 2. Feeding plate; 201. Ceiling piece; 3. Reset shaft; 301. Limiting inclined block; 302. Arc groove; 303. First baffle; 4. Rotating plate; 401. Fixing block; 402. Sliding rod; 403. Placement block; 404. Spring; 405. Limiting slider; 406. Third groove; 407. Extension baffle; 5. Slide rail; 501. First slider; 502. Extension rod; 503. Connecting frame; 504. Electric cylinder. Detailed Implementation

[0020] The present invention will be further described below with reference to the accompanying drawings and embodiments.

[0021] Please see Figures 1-5 This utility model provides an embodiment of an automatic collection device for aluminum ceiling panels, including a fixed plate 1; it also includes a placement block 403 and an extension rod 502. Two fixed plates 1 are provided, with a feeding plate 2 located at one end of each fixed plate 1 close to the other. Multiple ceiling panel pieces 201 are placed on the feeding plate 2. Two first grooves 101 are provided at the front and rear ends of the fixed plates 1. Multiple reset shafts 3 are rotatably mounted on the first grooves 101. Torsion springs are provided at the connection points between the reset shafts 3 and the fixed plates 1. A rotating plate 4 is rotatably mounted on the reset shafts 3. Multiple sets of limiting inclined blocks 301 are fixedly connected to the left and right ends of the inner walls of the first grooves 101. A limiting slider 405 is elastically slidably mounted on the rotating plate 4. The other end of the limiting slider 405 is fixedly mounted on the rotating plate 4. A placement block 403 is attached, and two fixed plates 1 have a second groove 102 at their opposite ends. The second groove 102 is equipped with a slide rail 5 that can move back and forth. An extension rod 502 is slidably mounted on the slide rail 5. An extension baffle 407 is mounted on the end of the rotating plate 4 away from the placement block 403. When the extension rod 502 moves upward, it pushes the extension baffle 407, thereby changing the rotation direction of the rotating plate 4. Then, the placement block 403 rotates through the rotating plate 4 itself, causing the spring 404 at its rear end to be limited by the limiting inclined block 301 and thus protrude outward to receive the falling ceiling piece 201. The extension rod 502 moves upward and falls back continuously, thus realizing the overall stacking protection of the ceiling piece 201.

[0022] Please see Figures 1-4 In this embodiment, the rotating plate 4 has third grooves 406 at both ends. The limiting inclined block 301 is located at the third groove 406 on the rotating plate 4. The lower end of the rotating plate 4 is fixedly connected to a fixing block 401. Two sliding rods 402 are slidably arranged on the fixing block 401. The placement block 403 and the limiting slider 405 are connected to each other through the sliding rods 402. A spring 404 is provided at the end of the limiting slider 405 and the fixing block 401 that are close to each other and located on the outer wall of the sliding rod 402. When the rotating plate 4 rotates... After plate 4 flips upward, the limiting slider 405 is no longer squeezed by the limiting inclined block 301. The spring 404 drives the limiting slider 405 to reset. The limiting inclined block 301 is provided with an arc-shaped groove 302. The arc-shaped groove 302 is arc-shaped to prevent the rotating plate 4 from being unable to reset due to the obstruction of the limiting inclined block 301 after rotation and reset. The left and right ends of the first groove 101 are provided with the same number of first baffles 303 as the rotating plate 4. After the rotating plate 4 is reset, it is blocked by the first baffles 303.

[0023] Please see Figure 1 and Figure 5In this embodiment, two electric cylinders 504 are provided on the second groove 102. The telescopic rod of the electric cylinder 504 is fixedly connected to the inner groove surface of the second groove 102. A connecting frame 503 is fixedly connected to the outer wall of the electric cylinder 504. The slide rail 5 and the two connecting frames 503 located on the second groove 102 are fixedly connected to each other. A first slider 501 is slidably provided on the slide rail 5. Extension rods 502 are fixedly connected to the left and right ends of the first slider 501. If the slide rail 5 is not driven to move back and forth by the two electric cylinders 504, but falls directly in a straight line, it will cause multiple rotating plates 4 on the fixed plate 1 to collide and flip.

[0024] In use, the extension rod 502 on the first slider 501 is located below the rotating plate 4 at the lowest end of the first trough 101. When unloading, the device is placed below the conveyor belt, and the unloading plate 2 is placed between the two fixed plates 1. The first slider 501 drives the extension rod 502 to move upward, causing the rotating plate 4 at the lowest end of the first trough 101 to change from a 45-degree angle to a state parallel to the ground. This is mainly achieved by the upward movement of the extension rod 502 pushing and flipping the extension baffle 407 on the rotating plate 4. When the rotating plate 4 changes to a state parallel to the ground... When the ground is parallel, the limiting slider 405 also flips downwards along with the rotating plate 4. Limited by the inclined surface of the limiting block 301, the limiting slider 405 extends downwards towards the feeding plate 2, causing the protruding end of the placement block 403 to exceed the vertical surface of the end of the fixed plate 1 closest to the feeding plate 2. The first sliders 501 on the two fixed plates 1 move synchronously, causing the two placement blocks 403 on the two fixed plates 1 to protrude from the fixed plates 1, thus catching the ceiling piece 201 falling from the conveyor belt. The falling of the ceiling piece 201 will not impact the ceiling piece 201 already placed below, thus protecting the goods. During subsequent continuous feeding, the first slider 501 drives the extension rod 502 to move upward continuously, repeating the above process. The extension of the placement block 403 receives the falling ceiling piece 201. However, when the extension rod 502 moves upward, the lower reset shaft 3 is reset by the torsion spring, causing the rotating plate 4 to hit the first baffle 303 for limiting and fixing. The limiting slider 405 on the placement block 403 is no longer squeezed by the limiting inclined block 301 and retracts through the spring 404. When it is full, the discharge plate 2 is taken out and a new discharge plate 2 is placed. Then, the two electric cylinders 504 drive the slide rail 5 to move away from each other, so that the extension rod 502 does not squeeze the extension baffle 407. Then, the first slider 501 is placed back at the bottom of the device. The use of the device solves the problem that the ceiling single piece 201 is easily damaged by impact and the discharge operation is inconvenient.

Claims

1. An automatic collecting device for aluminum ceiling panels, comprising a fixed plate (1); characterized in that: It also includes a placement block (403) and an extension rod (502). There are two fixing plates (1). A feeding plate (2) is provided at one end of the two fixing plates (1) that are close to each other. Multiple ceiling pieces (201) are placed on the feeding plate (2). Two first grooves (101) are provided at the front and rear ends of the fixing plate (1). Multiple reset shafts (3) are rotatably provided on the first grooves (101). A torsion spring is provided at the connection between the reset shafts (3) and the fixing plate (1). A rotating plate (4) is rotatably provided on the reset shafts (3). The first grooves (101) are... 1) Multiple sets of limiting inclined blocks (301) are fixed to the left and right ends of the inner wall. A limiting slider (405) is elastically slidably set on the rotating plate (4). A placement block (403) is fixed to the other end of the limiting slider (405). A second groove (102) is opened on one end of the two fixed plates (1) that are far apart from each other. A slide rail (5) that can move back and forth is set on the second groove (102). An extension rod (502) is slidably set on the slide rail (5). An extension baffle (407) is set on one end of the rotating plate (4) that is far away from the placement block (403).

2. The automatic collection device for aluminum ceiling panels according to claim 1, characterized in that: The rotating plate (4) has a third groove (406) at both ends. The limiting inclined block (301) is located at the third groove (406) on the rotating plate (4). The lower end of the rotating plate (4) is fixedly connected to a fixing block (401).

3. The automatic collection device for aluminum ceiling panels according to claim 2, characterized in that: Two sliding rods (402) are slidably arranged on the fixed block (401). The placement block (403) and the limiting slider (405) are connected to each other through the sliding rods (402). A spring (404) is provided at the end of the limiting slider (405) and the fixed block (401) that are close to each other and located on the outer wall of the sliding rod (402).

4. The automatic collection device for aluminum ceiling panels according to claim 1, characterized in that: An arc-shaped groove (302) is provided on the limiting inclined block (301), and the arc-shaped groove (302) has an arc-shaped structure.

5. An automatic collection device for aluminum ceiling panels according to claim 1, characterized in that: The first groove (101) has a number of first baffles (303) at its left and right ends, the same number as the rotating plate (4).

6. An automatic collection device for aluminum ceiling panels according to claim 1, characterized in that: Two electric cylinders (504) are provided on the second tank (102). The telescopic rod of the electric cylinder (504) and the inner groove surface of the second tank (102) are fixedly connected to each other. A connecting frame (503) is fixedly connected to the outer wall of the electric cylinder (504).

7. An automatic collection device for aluminum ceiling panels according to claim 1, characterized in that: The slide rail (5) and two connecting frames (503) located on the second groove (102) are fixedly connected to each other. A first slider (501) is slidably arranged on the slide rail (5), and extension rods (502) are fixedly connected to the left and right ends of the first slider (501).